Trunk hunting selector



w. w. PHARls 2,925,470

TRUNK HUN'rmG SELECTOR 3 Sheets-Sheet 1 Feb. 16, 1960 Filved Oct. 27. 1953 Feb. 16, 1960 Filed oct, 27. 1953 W. W. PHARIS TRUNK HUNTING SELECTOR 3 Sheets-Sheet 2 FIG;v 2

Feb. 16, 1960 w. w. PHARls Filed Oct. 27. 1953 TRUNK HUNTING SELECTOR iff/6.3

3 Sheets-Shee't 3 TRUNK SELECTOR 104 silice fett' @ses v y tion Serial lNm l Electro-rn' often are ad wem @t this' goiug'call ma "s'el e thisv prei/idas s 'masimum'exl on: Usually the 'trunk distribut A furth 'it object is to'hproy'id'e aV fletible ltleleilov tem, using only couvehtioual/ Jsyvitches to'selec't` ahy: one- Ufa plurality of trunkc i r c 1 1i.ts. v Another object vof this;` infveution is to providea new trunk selector switch"whdse motio'u is controlled. by fan auxiliary brush in'theirstgdire'ction audby a supervisory b'rush inthe secondary direction.'`

y Still another' obec't df thisi inventio isfjto adapta conventioual s'tepbyfslt'ep sii/'ite providelvellhiihtiiig'arid truuk-hutirig oy'er a hiidjed y Als'o, a'nf otjecfo'f makin-gemir" :sommo-nto truthsv selecfegr' I y trunlecircuit'sasso Yer anofhebbietfis mink Select@ Wllcfli2iit1-1f1 sive to seizure of a-level a-Jiidle truuk.;V

A further obiectofthis .inventionisfto providfaivio motion, step-by-step'switch-which hunts' in" its first direction ofmotion for a 'levl'f'with' artidle -trunk, andwhich l y' starts;huntig.Y resiaouv hecase of r'r'lfos'tftelephorie' systems".the` positive Y nal of' the exchange battery isde'scribed as conjuected tokground and, thereforei'thefterius battery ded' areused throughout ,the specificaciesiguate this arraugeluentlA vltgsiloh'u'ldf bey udert1 this oruauylother sir'lilr'poyyer supply could be use Without departiugfrorri the scope( of'this inventionmfI l W ,close a complete selector cirrciiit.- Y Y Briefly, Fig. 1 shows a'telephoile systemwherein a duectroltil of motion for a level havmgaccess to ldle thought thata *Iuorecomblete will y subscriber. line, 101may..beseizedbyliuefinder Y l lselector equipment. Assuming that two-way trunk circuit 101 y is idle, selector 104 stops on the third level'after which it searches in its secondary direction of motion, thereby completing a connection through two-way trunk circuit 107 and over trunk line 130 to operator position 151 at central oce 150. The operator answers and converses with the calling subscriber to nd the destination of the call. direct manual basis to a subscriber such as 152, for example, or, by way of electro-mechanical telephone equipment 133 to either subscriber 154 or to a distant oice 160 via trunk line 155.

Then, a connection may be completed either on a A call similar to that outlined above may be completed from operator position 105 through operator selector 106, either to a local subscriber 112 via connector 111 or to subscriber 154 or distant olice` 160 via trunk selector 104, two-way trunk circuit 107, trunk line 130 and central office 150.

Means is provided in trunk selector 104 for indicating i ra level including bank terminals terminating an idle trunk circuit such as 107, for example. More specifically, ten trunk circuits such as 107, 120 and 121 may be seized from the third level of trunk selector 104 according to busy markings on auxiliary contact a and likewise each of the other nine levels Ywould have access to similar circuits. Each of these trunk circuits includes a relayv which operates in any conventional manner, not shown, as the conductor R and then through contacts 213 and the lower winding of relay 220 to battery.

Calling bridge relay 220 operates and closes parallel circuits for energizing release delay relay 230 and X-delay relay 310. These relays are operated over an obvious path including contactsr221, and in the case of relay 310, X-oi-normal contacts 201. Contacts 223 close to complete a circuit from battery connected through the monitor lamp MON to grounded (-1-). The lamp glows brightly as an indication that selector 104 has been seized.

Release delay relay 230 is a slow release relay which is arranged to forward a holding ground after switchthrough (and to hold trunk selector 104 operated through- `out any incidental interruptions in the telephone loop i greater detail, the iirst step is taken when grounded (-1-) circuit becomes busy to open a set of contacts such asfv 115, 116 or 117, respectively, for example. As each opens, a marking is removed from lthe common conductor ATB. When the last idle trunk circuit in a particular level becomes busy, the last marking is removed from conductor ATB corresponding to that level and common relay 330 releases to close contacts 331, thus applying a busy marking, such as grounded (-1-), for example, to the XX bank terminal corresponding to the busy level. The XX bank is searched by trunk selector 104 in its primary direction; therefore, since continued primary motion depends upon the presence of ground on the XX bank,`selector 104 stops on the lirst level containing an idle trunk connection as indicated by an ATB conductor which is marked by an absence of ground. Trunk selector 104 is,also provided with four brushes which pass over terminals T, R, S and HS during the switches motion in its secondary direction. The conversation path is carried .by the T and R terminals while two supervisory and testing circuits are completed over the S and HS terminals. For example, markings on an S terminal indicate whether a particular line is busy or idle.

If the trunk selector searches over the entire ten levels, to which it has access, without nding an idle marking, it steps into overllow at lthe end of its primary motion and returns a busy signal.

Incoming calls either from a distant ofice 160 or from central oihce 150 may be completed over trunk line 130 and two-way trunk circuit 107 to incoming selector 108 which then may be directed to seize either subscriber 110 over connector 109 or operator 105 as desired.

Trunk selector 104 is shown in detail in Figs. 2 and 3. Conductors T, R, S and HS, shown in the left of Fig. 2, correspond to conductor group 113 in Fig. l, while the T, R, S and HS brushes, shown toward the right of Fig. 3, have access to terminals connecting with conductor group 114 in Fig. l. The ATB lead and relay 330 are shown at the lower right of Fig. 3.

Detailed description Seizure.-Trunk selector 104 is seized over conductors 113 which may extend from either local selector 103 or operator selector 106, as the case may be. l Responsive thereto, a loop circuit is completed over conductors T and R for operating calling bridge relay 220. This circuit may be traced from grounded (1-) on contacts 311 through the upper winding of calling bridge relay 220, contacts 211, over a talking loop from conductor T to is extended from contacts 232 overy a path which may A. be traced through X-o-normal contacts 302, operated contacts 315, overflow contacts 203, X-interrupter contacts 301, Y-interrupter contacts 305, the upper winding of hunt assist relay 320, contacts 324 and Z-interrupter contacts 304 to battery. Hunt assist relay 320 is a fast operate relay due to the low resistance of its upper winding. Therefore, it is provided with a non-inductive lower winding which is a high resistance normally shortcircuited to give a fast operate characteristic to relay 320.

rUpon operating, it opens contacts 324 to remove this short-circuit and thereby reduce current through the upper winding as a safety precaution. Contacts 322 close to complete a circuit for energizing magnet X to cause trunk selector 104 to step-off in its primary direction. This circuit may be traced from grounded (-1-) applied through contacts 232, 217, 322, 236, 317, and the winding of magnet X to battery. When magnet X operates, it opens its interrupter contacts 301 thereby releasing hunt assist relay 320. This in turn opens contacts 322 which releases magnet X to close contacts 301. Responsive to ythis operation, the XX brush is left standing on its tirst terminal.

Assuming that all trunks in the rst level are busy, a ground marking is encountered on the first terminal in the XX bank representing the first level which is returned to operate hunt assist relay 320. It should be noted that the original path for causing the irst step was traced from contacts 232 to relay 320 through X-o-normal contacts 302 which open responsive to lswitch motion in the primary direction; therefore, hunt assist relay 320 is now dependent upon the circuit which may be traced from grounded (-1-) applied over contacts 331, terminal 1 of the XX bank, 4the XX brush, contacts 315, 203, 301 and 305, and the upper winding of hunt assist relay 320,

Vto battery by way of contacts 324 and 304. Relay.

320 operates to close contacts 322 which completes a circuitfrom grounded (1) through contacts 232, 217,322, 236, 317, and the winding of magnet X to battery. vIt operatesV and steps the switch a second time in its primary direction.'

When the switch steps far enough for the XX brush to clear its first terminal but not far enough to touch its second terminal there is an instant when the circuit to relay 320 is broken and there might be a false operation if some safety `feature were not provided. This feature comprises contacts 321 which complete an alternate holding path from contacts 232 to relay 320.

The switch steps and after the XX brush has moved wat "inturn again closes,` contactslyvlg to test circuit fordetermining whetlgt i'dle or busy. Assuminetha-t th fountain an .dleijrunki a growl Vlcountered 'on'j terminal :2 whit;v

. by indicatingk that thev switch mightbe noted that-f when ft ..frpmfeunded (+o extendedtthfougn ...sagt fztiizlS, and the winding...

ffatieughftoituch its;seoneiterrnitelfnieuwe?cen- Atacts 301,- againfopen tofreleaserrslay 3.2

onces contacts 321 and-L3M; ,therehyerelesiu brush to cause trunk selector exactly the same manner. aspwasfdeserip nection with f step 2. -This 'p r Iesscontinue taining an idle trunk att-,which Stepping cicuz'tis switched :lay 310 Yreleases at-the end of X-.iotfnormal contacts '201. ope

operating Apathgfor X-delay relay cuit is completed for= re-.energizgin .reekthe; Original :during stepping, the circuit yheingfrorny (y-)febatter-y, through the lower winding of relay-.1310, contacts 317,

236, 322; 217and 232-to grounded (-F): Ihefslow not release during stepping.` Qnce anidle levelris encountered, contacts for thatilevelpsuchas33h-are open; hence, no steppingcircuit is completedffeither vfor operat- Hing hunt assist relay 320 or for rte-energizing X-delay-re-Y lay 310.- Therefore, after a brief interval determined by liitssl'ow" release characteristics,gXfdelay*relay 310, releases toyopen contacts; 317` andto closev contacts 318.

This changesthe stepping path fromits connection vwith magnet X to a connection withrnagnet Y.

hence selector-motion is switcliedf'rom theXX brush to the S brush atcontacts=314and 315. Vl-hat is', theselector 'h took fits. first, step;

Howeyeriafr- .t relay-teach time that grounded ispextended;repulse;theXmglet etages-tn .sidefof switching.` relay1 3011and-305, 'tliegupperfwjnd and contactsY 324. and..3,0 .cireuit arrangements, afe fencounters a grounded( 'tile line; switching gmc cu o gr hen 4brush kSv conthefwinding otregr; may, be.V tracedg-from 'sweeter-wdfzsmhrotghue an ontacts 313.. andoperatedX- l iappliedrthrough v e'traced from the left ,1210, through contacts,v 314, 203, ing loffhuntlassist vvrelay 32,0 attery. Thus, vthe from opera Y is shunted and doesn'otV 'operatev However, whenths v: notion was controlledhy hunt.'assist -relay 320vv responsive to-` the circuit from busy@ground'applierlftoA theXX .brush` andl extended` lover-contacts-V 311532 203, 301, 305,

the upperl winding ottrelay-"320,5zcontaetsc324;"andV 304 to ('-)y battery. NoW= the circuitfor hunt' assist frelay 320 isextended from. brush Si; over: ,'contacts: 215, 231,V

314, 203, 301,305, thelupper'windingaofthuntiassistrelay4 l320, contacts1324. and :4fto (-;)fbattery.z

Secondary motion-...The switchzisfnowvready to :search in its secondary direction yfor 'andleztrunkfcircuit: The

' operating circuitfor. .huntassist` relay .320. isf connected j from )fbattery applied ythroughaco'ntactsrt04z'andr324 tothe upper winding of relay..320;and contacts 305,l .301, 203, 314,'.Y-oftnormalcontacts 208i. contacts 313 and operated Xoinormal Accmtacts--5302to. groundeclil(f|l)k supplid'through contacts 232; YRelay..23.20toperates and closes acircit to the. secondary/magnet *Yfcausingsthe switch toitakeits rst istep: intthe;secondarylzdirection.

con'ipletionfofv this: operationgbrus'hes 'Rt K, Sila d arerestingfonthe first set 'ofcontactszzinfthe.leveLr-If the: associatedVv trunk is 'busyfa ground" markingV` is.'` enf Ycountered byxbrushS which sieiterativeto-AcausethefV switchto tale another'step'finitssecondaryhrction. "The circuit' ,for this operationI may Y be ae'edk frontj the .and conductor S to `tlgiesle'e "as, local selecto preventingl seizure oigtl Y selector., The., holdingf brush finds an labsenceof ground, switching relay 210 is :no longer ishunted. tov groundethrongh brushS `but is connectedto i-battery... y

. The circuit arrangementsfarefalso.. s11ch.t'hat` hunt yassist relay 320fdoes.. ntopergate inseries',v with switching relay 210,'. although, 'relay/f ZlOfoperates in series 'withi relay 32.0,. Contacts. .2.1.6, close; to extend `sleeve 'conductor ,S..back.through ,contaets ,of. the busy. key

'.103 ontacts .216. also forward grounded L( :H

erated.. Also, tliisgisja busy, markiiigztobrush's for terminals by. another.

l y A Areuit,y ltrunlfv circuit `1,07 for switching, relay.. ZlGlmaygbetraeedz'from the s .brush at the 'right'sideof 'Eig A throughy `contacts 216,VV opyerated X-Ioifnormal con ct'392,fcontacts 313, the winding oi switching, relay`21-,0,..andcontacts 314, 203, 301, `305, `tiieupper winding ofhunt assistrelay 320, rcontacts 32.4 yatidltlfttc;kv (.)-fbatter.y.`l

Meansis rprovided for` red cmgthepossibility-of false 'g .s eizurebytw'o ,switches ,searchingsirnultaneously as. well as premature. operation; lof switching relay V210. y.lv-"or example, if.k two.. switches` land onjaii idler terminal at once, Aeacjhtmay switchthrough beforelarguardinfg ground `isapplieclto terminal some.safety/Ly feature is not provided, Also,.t her e aninstant `after stepping, from va. terminal andbefor'efthels brushyreaches the next terminal., when hunt assistsre'lay; 32o/might releasey to 'cause false operation; or, switch-through relay 2,10 may become unshunted andpperate. .ToI forestall any possiv:ble Lrelease of ,hunt assist. relay,Y 320,.":1-.locl ingY ground contacts 232,.' 217, r.windings-of.relay is .applied oventhe circuit through orali/n -seieeaad'comme.304 o. (ikbatte'ry, A

busy 'ground marking 'throug'li brushibontacts 215, Y

2,31, 314, ,29ste-e1and,wethrqushtlieupper windingl ofhuntaassist relay .320;Qontacts 3254. 304 wtf) tacts 322 fr'operating the Y` magnet over ,thu ,circuit guarding ground is; applied to. brush' undenthe control of. relayY 320-to -Vguard tagainflst. operation ofv switchingV relay, 210Marnd, tOJredUces'irnuItaneo p Y ,seizuressb'y two s., .function results from a minimum., VT

. Referring back to the operation` of switch-through re1ay`2l0, in response to the Yopening of contacts 211 and f 213, calling;v bridgel relay; 22,0 releases and opens contacts 221,..therehyiestoririg,releasef'delay relay 230 whichin, turn-opensfcontacts. 231.1aind,I 232,v since. they are fno .longer required, and closes contacts 233 to. pre-l pare a-path for guardingtrunk selector,104` on. release; Contacts -235 areopenedsince itisl no. longer necessary -tofinaintain operation of aninterr'upter."Contacts1236 piefosfeakltha Seneweb-1 meet Y @cette @talking 'tendue ltlia long, as rbrush SL king, switching relayu2r1x0 The circuit for controllingthe hunt assist relayv and? 35V turn Vto normal. rupter contacts 206 (Fig. 3) for applying a grounded V237 open one path Vin theoperating' circuit of release magnet Z and contacts 238 close to prepare a path over which the switch is to be'released.

Release.-After the conversation is completed, the grounded marking formerly extended over brush S from the right side of Fig. 3 is removed-Vas is-conventional-s-and switchingV relay 210 -releases to return calling bridge relay220 to Vits normal connectionv with the talking conductors T and R and 'to break the conl,

tinuity of the S conductor at contacts 216. Contacts 21901) close to extend a ground marking (not shown) which is applied to release alarm conductor RA, over -contacts 219(a), 238, and X and Y off-normal contacts 209, to the winding of the release magnet Z and battery. Magnet Z releases to cause the switch to re- Release magnet Z closes its intermarking to the S conductors to hold trunk selector `104 busy during release. Z interrupter contacts 304 are opened to preventan. inadvertent operation of the hunt assist relay and to insure the release of switching relay 21o.

VAll trunks Vbecome busy during secondary switch motion marking over the S brush. This marking is encountered vby the secondswitchand it steps to test the'next trunk in the manner explained previously.

Assuming that all of the remaining trunks are busy, the switch steps into an overow position responsive to whichoverl'low contacts 203, 207 and 303 are operated. Contacts 203 break the path to hunt assist relay 320 so that switch motion stops. Contacts 207 close to complete a circuit for operating release ymagnet Z. This circuit may be traced from battery through the winding of magnet Z, both the X and Y olf-normal contacts 209, operated contacts 237, Y-otf-normal contacts 204, oxeriiow contacts 207 and contacts 221 to grounded The switch returns to normal as described above. Following this, X-delay relay 310 reoperates via contacts 221 and 201 and trunk selector 104 is operated again as when it was first seized. The control path to control switch motion is reswitched at contacts 315 and 314 from connection with the S brush to connection with the XX brushes and once again it searches in its primary directionfor a level containing an idle trunk.

Since there may be idle trunks in other levels, the calling subscriber should not receive busy tone at this I time; therefore, contacts on X-delay relay 310 are used to distinguish 'between this condition and an all trunks busy condition and to prevent the return of busy tone atthis time. To review briey, the X-delay relay released at the end of the first digit. When the switch steps into overow, contacts 207 close; however, contacts, 316 are now `open so the X-delay relay is not aife'cted at this time. Therefore, contacts 311 and 312 are normal and no busy tone is transmitted.

All trunks busy "operateg however, this time a busy signal is sent.

level, the switch Asteps into overflow whereupon'overflow contacts 203, 207 and 303 are operated and a busy signal is returned to the calling subscriber.

As in the case of a busy level, overflow contacts 207 To review briefly, X-delayrelay 310 originally operated over ja'path including contactsfZZl and 201. Contacts 201 fopen' when the switch steps off-normal vinrits primary direction. Following this and on each step, relay 310 receivesV a' pulse of energizing current over contacts 317, 236, 322, 217 and 2?'2.` The slow releasefcharacteristics of this relay are such that it docs not release between pulses; therefore, it remains operated aslong as the'switcli isY stepped inv its primary direction. When the overflow position is'reached, relay 310 locks operated overy its owncontacts 316 and operated contacts 207 and 221 to groundedf('). Therefore, in this case,

a busy tone is transmitted through Vovertlow contacts 303 `and yXLdelay contacts Y31,2, the upper Winding of relay battery thereby restoring the switch as explained under the subheading Releasef The' circuit is now restored to normal.

Miscellaneous Various resistor-capacitor networks are shown and labeled SP." These are more or less conventional circuits for spark protection in the stepping circuit. Jack MON permits a maintenance man to monitor both the switch operation and calls, as required. The busy key is arranged to busy trunk selector 104 to other selectors, such as 103 or 106, for example. The TEST jack permits conventional testing. Contacts 219 provide a bright-dim feature for monitor lamp MON so that maintenance personnel may determine whether or not lthe cell has been switched-through; that is, when the switch is seized, a circuit is completed through contacts 223 for causing lamp MON to glow brightly; whereas, after switch-through, calling bridge relay 220 releases and contacts 223 open while contacts 219 close to extend grounded through a resistance to monitor lamp MON causing it to glow dimly. This feature is claimed in my co-pending application Serial Number 313,667, tiled October 8, 1952, now Patent 2,685,616.

Means is provided for recording the total time during which al1 trunksare busy. When relay 330 releases, it

. another marking from this conductor so that when all levels are .busy a relay Yin the common equipment is released to connect a 10 i.p.m. conductor to peg count meter PC. Thus, the meter is operated ten times; per minute to give an, indication of how long the trunks are busy. Contacts 218 open and close the HS conductor on switch-through so that certain supervisory functions may be provided, such as conversation timing, toll marking, and the like. v

While I have shown only one embodiment of my in vention, it is my intention to claim not only this particular circuit but also to claim all equivalent circuits. l

What is claimed is:

1. In a telephone system, a non-numerical, two-direction, step-by-step trunk selector vhaving a bank of termiassassin ingcallsrto said selector, means forcompletinglsaidealls fonrsaid selector, a'y plurality off trunks 'connected t be-` 'lifting'callsi-r means i'rrfsa'iir selector responsiveto seiz# ure/forl automatically' searching-in afirst fof saidtwo'- "dil factions' for aflevel'iliaving* acces'sf'to idle trunks'g'; and means for searching in the second of said 'two directions for sst-afidle'trunke f t comb"v "tiorrl'assetffforthi claim?" wherein mean'seareprovidedforfreturning abusy vsignal lif said means for automatically searching in a iirstrofesaiditwo directions is'eunsuccessfulin'ffinding varl'evelE having access td'idl'etrunks.' v v 3". The' combination-as set" forth in' claim' 2? wherein meansare'provided;V iocausingv said means for aut'omatically searching',A in' a' first of j. said twodirections to THe-telephone.' system? ofi. clai'mfV whereixaasid bank terminalsV are ,l arranged in M levelsfwvitllN'fteta:` ininalslin eaclil level; and means 'forterminatingfsaid' trunks of saidle'vell! being busy whenA searched-v for; caus ing.: saidselecto'rto drop-backto vnormaljin both'l said first and secondy directions andmeans-re'sponsive1-toi id Y .drop-hackv for causing said selector to move aga-inl ini said jrfi'rst direct-ion until said additional-brush finds a contact drop 'back andl re-searc'h when 'said` means forsearchin'gur a'rsec'ond* ofi said 'wieY directions' fails to find'A anridle trunk inthe'` level-searched'. Y r

4.V The' combination assetffortfrin-claiml Ewl'ierei'n means are providedrv for` causing 'said lmeans1 foriiauto'- maticallyfsearclng-in a first of4 said two directions to drop back and re-se'a'rclry whensaid .means forsearching ina second ofsaidtWUdirections failstd'findranidle trunkin the level searched.` Y Y 5'. The telephone system-'ofclaim" l' wherein saidftrunk selector further comprises a first set of brushescfo'r 'er1 -gaging said bank Aterminals includingatalking circuit andat 'least one supervisory circuit, said selector also comprising an. additional-brush vand-anY associated set of bank contacts, means for causing said-additionalf brushto= search'non-numerically over said vbank contactsY responsivej to thevfirst of said twov directions of'saidf selector,:each ofA said contactsrepresentingza differentzone (yn-saidlevels, and meanS fQ1jm-arking eachof said contacts when' all trunks in the corresponding level'l are usy.

6. The combination as set forth in claim 5 and a busy signal source and means for coupling said source 'to said call initiating means when Said means for automatically searching in a tirst yof said two directions fails to vfind a level having 'access to idle trunks.

7. The telephone system of claim 5 wherein said means for causing searching in said first direction is a first stepping magnet, means comprising said additional brush for controlling said first magnet, and a second stepping magnet for causing said selector to-operate in the second of said two directions under the inuence of said supervisory circuit.

8. The telephone system of claim 7 and a common means including a hunt assist relay for controlling the operation of said first and second magnets, and means for switching said common hunt assist relay between said additional brush and said supervisory circuit.

9. The telephone system of claim 5 wherein said bank terminals are arranged in M levels with N terminals in each level, a plurality of trunk circuits and control means ineach of said trunk circuits for. controlling said mark-V ing on said contacts according to the idle or busy state of that trunk circuit.

l0. The telephone system of claim 9 wherein said control means in each trunk circuit comprises a set of marked contacts, means for actuating one of each of said sets of contacts as its associated trunk circuitl becomes busy, a conductor common to av plurality of said marked contacts, a common relay connected to said common conductor to be normally operated by the marking connected through any one of said marked contacts whereby said common relay releases when all of said marked contacts connected to said common conductor are open responsive to busy trunk circuits, other contacts on said common relay, and means for connecting a marking through said other contact to one of said bank contacts.

yindicating a level' of' tmnks which includes at least'one' idle t'runkl. l Y Y Y 13? The-selector of claim' l'and means for halting movementin lsaid iirstdirection responsive to 'these'- 'lection of the first of said levels having access to-Jid'l'e trunkand means-for initiating movement in said second v direction responsive towsaid lastnamed means. 1

kmerical, step-by-step selector switch4 comprisingv a setf of brushes andan associated bank of terminals, meansfor 14; In a telephone system, a two-directionalynon-n 'extending calls tov said selector,` means for completing' j ca-llsffrorn; saidselector, a plurality of`tr`unks extending 'from said selectorbank of terminals to said meansior completing calls,l-atleast one of said brushes carrying-aI f f supervisory circuit", an auxiliary brushand ian. associated bank" of: contacts, means responsivev to' seizure of vsaid selector Yfm" moving `said auxiliary brush yover said. bank of-'contacts simultaneously with vmotion'` of said' setof brushes in-l a firstof-'said two directions, means com,-

pr-ising said auxiliary v4brush for directing said setjof brushes to a group of saidterminals including at least one idle terminal, and means comprising said one brush andV said supervisory circuit for 'directing ,said set of brushes` in said second direction in search of said idle terminal.

15. 'Ifhe selector of claim 14 wherein said means for moving said auxiliary brush and said set of brushes in said first direction comprises a first stepping magnet and means including a second stepping magnet for moving said set of brushes in said second direction, circuit means whereby said auxiliary brush controls said yfirst magnet and said one brush controls said second magnet.

16. The selector of claim 14 wherein said means for moving said auxiliary brush and said set of brushes in said first direction comprises a first magnet and means including a second stepping magnet for moving said set of brushes in Asaid second direction, means common to Y'said two magnets for controlling their operation, circuit Y from connection with said auxiliary brush to connection with said third brush.

17. The selector of claim 16 and means operatedv at the extremity of said second direction forcausing said selector to drop-back to normal if all of said group of terminals becomes busy before found by said one brush,

and means responsive to said drop-back Vfor reswitching said common means back to saidconnection with said auxiliary brush from said connection with said one brush.

al-level of' trunks including for switching andv reswitching comprises contacts'on said slow release relay.

19.A telephone 'system comprising subscriber lines, a two-motion trunk selector having a bank of terminals divided into levels, said selector having at least two brushes and two Stepping magnets,- one of said brushes arranged to move with one of said motions Vunder the inuence of a first of said magnets and'Y the other of said brushes arranged to move with both ofv said motions under the inuence of both of said magnets, automatic switching means for seizing said selector from said subscriber lines, means comprising said stepping magnets for automatically operating said selector in -a rst of its two motions responsive to said seizure, a plurality of trunks divided into subgroups, each subgroup connected to one of said levels, relay means for controlling said magnets, ,means for connecting said oneV brush to saidrelay means for controlling said rst magnet to test various levels during a rst of said two motions to determine whether any level includes anidle trunk, means for disconnecting said one brush from said relay means and for connecting said other brush to said relay means for controlling said second magnet to nd said idle trunk in said level, and means responsive t all trunks busy for causing said trunk selector to transmit a busy signal to said subscriber line.

20. A trunk selector comprising a non-numerical, twodirectional switch having access to banks Vof MN terminals, saidrbank terminals being divided into M levels of N terminals each, means for-extending calls, a group of trunks connected Vbetween said bank terminals and said means for extending calls, a set of bank contacts each kof which is individual to a different one of said levels, means for marking eachV of said bank contacts to indicate Whether its level contains at least one idle trunk, and means for moving said switch responsive to seizure in its primary direction for testing each of said 12 bank contacts Yto determine which isthe first ievelfin cluding an idle trunk.`

21. The selector switch of claim 20 and means forY halting motion in' said primary direction responsive to said switch nding a bank contact having an idle trunk marking, and means for causing said switch to search in its secondary direction over said level for the idle trunk.V 22. The selector switch of claim 21 and means for returning said` switch to its normal position if all trunks of said level becomek busy during motion in said secondary direction. 23. The selector switch ofclaim 22 and means for causing said switch to re-hunt over said bank contacts following each time that said switch is returned to normal from its movement in said secondary direction.

Y 24. The selector' switch of claim 23 wherein `said means for moving `said switch in said primary direction comprises a rst stepping means and said means for moving said switch in said secondary direction comprises a second steppingY means, a common control relay for operating said rst and second stepping means, rst circuit means for controlling said relay means from said bank contacts during said primary motion, other circuit means for controlling said relay means from said terminals and switching means for alternately connecting said relay means to either said irst or said other circuit means. Y y.

References Cited the le of this patent UNITED STATES PATENTS 2,210,068 Dimond Aug. 6, 1940 2,295,200V Cesareo Sept. 8, 1942 2,424,585 Simon et al. July 24, .1947 2,431,313 Den Hertog Nov. 25, `1947 2,660,619 Kessler Nov. 24, 1953 2,731,515 Wicks Ian. 17, 1956 

